Sound Speed Spatial Modeling in Persian Gulf using Geostatistical Techniques
Subject Areas :
Physical Oceanography
Hesameddin Mehrfar
1
,
Mohamad Akbarinasab
2
,
Amir Siah Sarani
3
,
Amin Raeisi
4
1 - PhD of Physical Oceanography, Young Researchers and Elite Club, Boroujerd Branch, Islamic Azad University, Boroujerd, Iran. *(Corresponding Author)
2 - Assistant Professor Faculty of Enviromental and Marine Sciences, University of Mazandaran, Mazandaran, Iran.
3 - PhD of Physical Oceanography, Meteorological Organization East Azerbaijan Province, Tabriz, Iran.
4 - PhD of Physical Oceanography, Lecturer of Basic Sciences Sama Technical and Vocational Training Collage, Shiraz Branch, Islamic Azad University, Shiraz, Iran.
Received: 2017-07-28
Accepted : 2017-11-15
Published : 2019-06-22
Keywords:
Geographical information system,
Persian Gulf,
Spatial modeling,
Sound speed,
Abstract :
During research patrol of 2001 ROPME, the physical parameters of sound velocity in the Persian Gulf were measured. The range of stations selected to measure these parameters included the entire Persian Gulf. However, these measurements were discrete from the study area.In this study sound speed was spatially modeled in Persian Gulf using the geostatistical analyst Arc GIS 9.2 software to prepare continuous and high validity maps of sound speed at different depths. These smart maps can be used to predict sound speed at any spatial coordinates in the study area by clicking the mouse pointer. Moreover, analysis of these maps led us to the conclusion that sound speed was highest in the shallower central parts but lowest in the eastern and western parts of the Gulf. The reason for this is the higher temperature and salinity in the central parts and the proximity of the eastern and western parts to the low-salinity waters of the Oman Sea around the Hormuz Strait in the eastern part and Arvandrood in the western part. The deeper waters also had the maximum sound speed around the Hormuz Strait and in the southern shores of the Persian Gulf where the more saline waters of the Gulf poured into the Oman Sea.
References:
Alessi, C. A., H. D. Hunt, A. S. Bower. 1999. “Hydrographic data from the U.S. Naval oceanographic office: Persian Gulf, southern Red sea and Arabian Sea”, Woods Hole Oceanog. Institution Technical Report WHOI-99–02.
Reynolds. R.M., 1993. Physical oceanography of the Gulf, Strait of Hormuz, and the Gulf of Oman—Results from the Mt Mitchell expedition, Marine Pollution Bulletin, Vol. 27, pp.35 – 59.
Lardner, R.W., S.K. Das, 1991. “On the computation of flows driven by density gradient: Residual currents in the Arabian Gulf” Applied Mathematical Modelling, Vol. 15(6), pp. 282 – 294
Pike, J.M., and Beiboer, F.L., 1993, "A Comparison between Algorithms for the Speed of Sound in Seawater". The Hydrographic Society, Special Publication No. 34.
Chen, C. T., and Millero, F.J., 1977, "Speed of sound in seawater at high pressures". J Acoust Soc Am, Vol. 62(5), pp. 1129-1135.
Isaaks, E.H., and Srivastava, R.M., 1999, “an Introduction to Applied Geostatistics”, Oxford University Press, New York.,
Clark, I., 2005, “Practical Geostatistics”, Elsevier Applied Science Publication Ltd.
Kevin Johnston, J. M., Ver Hoef, K. K., and Neil, L., 2003, “ArcGIS 9 using ArcGIS Geostatistical Analyst”, ESRI Press.
Melanie. H., and Rhonda. P., 2002, “ArcGIS 9 using ArcMap”, ERSI Press.
Del Grosso, V.A., 1974, "New equation for the speed of sound in natural waters (with comparisons to other equations)". J Acoust Soc Am, Vol. 56(4), pp. 1084-1091.
Emery, K. O., 1956, “Sediments and water properties of the Persian Gulf”, AAPG Bulletin., Vol. 40, pp.2354-2383
Pous Stéphane, Lazure Pascal, Carton Xavier,2015. “A model of the general circulation in the Persian Gulf and in the Strait of Hormuz: Intraseasonal to interannual variability”,Continental Shelf Research, Vol. 94, pp. 55-70
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Alessi, C. A., H. D. Hunt, A. S. Bower. 1999. “Hydrographic data from the U.S. Naval oceanographic office: Persian Gulf, southern Red sea and Arabian Sea”, Woods Hole Oceanog. Institution Technical Report WHOI-99–02.
Reynolds. R.M., 1993. Physical oceanography of the Gulf, Strait of Hormuz, and the Gulf of Oman—Results from the Mt Mitchell expedition, Marine Pollution Bulletin, Vol. 27, pp.35 – 59.
Lardner, R.W., S.K. Das, 1991. “On the computation of flows driven by density gradient: Residual currents in the Arabian Gulf” Applied Mathematical Modelling, Vol. 15(6), pp. 282 – 294
Pike, J.M., and Beiboer, F.L., 1993, "A Comparison between Algorithms for the Speed of Sound in Seawater". The Hydrographic Society, Special Publication No. 34.
Chen, C. T., and Millero, F.J., 1977, "Speed of sound in seawater at high pressures". J Acoust Soc Am, Vol. 62(5), pp. 1129-1135.
Isaaks, E.H., and Srivastava, R.M., 1999, “an Introduction to Applied Geostatistics”, Oxford University Press, New York.,
Clark, I., 2005, “Practical Geostatistics”, Elsevier Applied Science Publication Ltd.
Kevin Johnston, J. M., Ver Hoef, K. K., and Neil, L., 2003, “ArcGIS 9 using ArcGIS Geostatistical Analyst”, ESRI Press.
Melanie. H., and Rhonda. P., 2002, “ArcGIS 9 using ArcMap”, ERSI Press.
Del Grosso, V.A., 1974, "New equation for the speed of sound in natural waters (with comparisons to other equations)". J Acoust Soc Am, Vol. 56(4), pp. 1084-1091.
Emery, K. O., 1956, “Sediments and water properties of the Persian Gulf”, AAPG Bulletin., Vol. 40, pp.2354-2383
Pous Stéphane, Lazure Pascal, Carton Xavier,2015. “A model of the general circulation in the Persian Gulf and in the Strait of Hormuz: Intraseasonal to interannual variability”,Continental Shelf Research, Vol. 94, pp. 55-70